A presentation of student research

The significant expansion of development of open-cycle OTEC systems began in 1984 with the development of a vertical-spout evaporator. Created by the Solar Energy Research Institute, known today as the National Renewable Energy Laboratory, the evaporator transforms warm ocean water into low-pressure steam. Tests yielded efficiencies up to 97% for the conversion process. While overall efficiency in systems with the evaporator remained low, by 1993 a Keahole Point, Hawaii open-cycle OTEC plan t generated 50,000 watts of electricity, breaking the prior record of 40 kW set in Japan in 1982.

Marked is Keahole Point, Hawaii

Open-cycle OTEC systems utilize surface water warmed by the sun to generate electricity directly. When placed in a low-pressure container, the heated saltwater will begin to boil. Steam is then released from the water and can be utilized in two ways. Most commonly, the steam is harvested into a turbine connected to an electrical generator. The saline components of the seawater remain in the low-pressure container, leaving steam that can be condensed into fresh water. When exposed to cold deep-ocean water, the steam changes into liquid form, becoming potable. The fresh water can then be used locally for drinking or be processed and shipped elsewhere. The cold water brought to the surface is also nutrient-rich and thus becomes attractive for use in marine aqua culture as well as on-shore agriculture (Girgis and Siegel, 1983). Alternatively, the steam released from the low-pressure container becomes a part of a gas lift technique involving the lifting of water to various heights. The result is hydroelectric power, either before or after the gas goes through the steam lift pump (“NREL”).

A flow chart illustrating the open-cycle process

Because of the specialized process, open cycle systems have specific conditions necessary for operation (“Ocean Thermal”):

Open-cycle systems must be sealed carefully to prevent in-leakage of atmospheric air because atmospheric air can greatly degrade or stop the operation of open system operation.

The specific volume of low-pressure steam used in operation is much larger than that of the working fluid in closed cycle OTEC. Because of this large required volume, components of open cycle devices require large flow areas. A large area for steam flow ensures that steam velocities remain within workable bounds and do not reach excessively high speeds.

Gases including oxygen, nitrogen, and carbon dioxide dissolved in seawater are released from the solution in a vacuum. These gases do not condense and therefore must be removed from the system.

Despite these requirements, open cycle OTEC benefits greatly by utilizing water as its working fluid. Where ammonia is toxic, water is environmentally benign. Additionally, evaporators used in open cycle systems produce steam that is desalinated, which allows condensers to produce fresh water. In many tropical areas where open cycle systems would be effective, drinking water is in high demand. By adding a commodity into the economies surrounding the water where open cycle systems would be utilized, the capital price of such systems can be offset. Other benefits of open cycle OTEC include aquaculture, with cold ocean water being brought onshore, refrigeration, air conditioning, and mineral extraction (Ferris, 2012). These benefits are expanded more upon in “Additional Uses.”

Open-cycle OTEC systems have many benefits, such as the production of potable water. Click the image to expand.

Open-cycle OTEC systems, like all OTEC systems, would be most effective in countries along the equator. These countries have the necessary access to ocean water and also see warm surface waters, a necessary requirement for OTEC systems to operate.

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